透明质酸
植入
钛
牙种植体
生物医学工程
粘附
材料科学
牙科
骨整合
表面改性
涂层
假肢
化学
纳米技术
医学
外科
复合材料
解剖
物理化学
冶金
作者
Gabriele Cervino,Agron Meto,Luca Fiorillo,Alessandra Odorici,Aida Meto,Cesare D’Amico,Giacomo Oteri,Marco Cicciù
标识
DOI:10.3390/ijerph18094670
摘要
Recently, interest has grown by focusing on the evaluation of a molecule already produced in the human body such as hyaluronic acid (HA), as an application to the surface of the titanium implant. Its osteo-conductive characteristics and positive interaction with the progenitor cells responsible for bone formation, consequently, make it responsible for secondary stability. The aim of this work was to analyze the various surface treatments in titanium implants, demonstrating that the topography and surface chemistry of biomaterials can correlate with the host response; also focusing on the addition of HA to the implant surface and assessing the biological implications during early stages of recovery. Used as a coating, HA acts on the migration, adhesion, proliferation and differentiation of cell precursors on titanium implants by improving the connection between implant and bone. Furthermore, the improvement of the bioactivity of the implant surfaces through HA could therefore facilitate the positioning of the dental prosthesis precisely in the early loading phase, thus satisfying the patients’ requests. It is important to note that all the findings should be supported by further experimental studies in animals as well as humans to evaluate and confirm the use of HA in any field of dentistry.
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